SU1161028A1 - Apparatus for sanitary treatment of udder - Google Patents

Abstract

1. DEVICE FOR SANITARY HANDLING TREATMENT, containing a tank for disinfectant liquid, a sprinkler, a pipeline and a collection container, characterized in that, in order to increase the treatment efficiency, it is equipped with a quartz irradiator with a reflecting body, a lamp and a spiral quartz tube coaxially located relative to lamp and piped to the tank for disinfectant fluid and collection tank, which are connected to the sprinkler, and the tank for disinfectant fluid mounted for series-parallel connection with the collecting container. 2. A device according to claim 1, characterized in that the pipeline has a distribution manifold with taps. / -G / S (L and to 00 ii $ uz.1

Description

The invention relates to agriculture, namely to devices for sanitizing the udder. A device for sanitizing an udder is known, which includes a sprinkler holder 1 mounted on the base. A device for sanitizing an udder is known, containing a tank for disinfectant liquid, a sprinkler, a pipeline and a collection container 2. A disadvantage of the known devices is the low efficiency of udder processing due to lack of funds for ultraviolet irradiation of the udder and sterilization of a fluid. The purpose of the invention is to increase the efficiency of udder treatment. This goal is achieved by the fact that the device for sanitizing the udder, which contains the tank for disinfecting liquid, the sprinkler, the pipeline and the collecting tank, is equipped with a quart. a target illuminator with a reflector housing, a lamp and a spiral quartz tube, coaxially positioned relative to the lamp and communicated by pipeline with a tank for disinfectant fluid and a collection tank, which are connected to a spray bar, the tank for disinfecting fluid being installed with a series-parallel connection with a collection tank . In addition, the pipeline has a distribution manifold with cranes. FIG. 1 shows the device, a general view; in fig. 2 - irradiator, general view. The device comprises a quartz irradiator 1 with a case-reflector 2, a gas discharge high-pressure mercury lamp 3, around which a spiral quartz tube 4 is coaxially mounted, which is axially longitudinal in cross-section. The spiral tube 4 at the inlet and outlet communicates with pipelines 5 and 6. In case 1, a fan 7 is mounted coaxially with a lamp 3 and a fan 7 is mounted with an electric motor 8 fixed by means of ring mandrels 9 on a rod holder 10 which houses flexible pipe 5 and 6 and a register And for an electric motor 8 and a lamp 3. For protection against damage, there is a fence 12. For collecting water treated with ultraviolet radiation and an infrared spectrum of a lamp, there is a collection container 13 located between the outlet pipe of the quartz tube and the sprinkler. Lemma 14. In circulating multiple treatment mode, water from tank 13 through pipe 5 enters the inlet of tube 4, for this purpose serves a distribution manifold 15 with taps 16 and 17. A tank 18 for disinfectant fluid, installed with the possibility of serial-parallel communication with the collecting tank 13. For this purpose, valves 19-22 are provided on the pipelines. The irradiator is equipped with a starting-regulating apparatus (not shown). For feeding water and disinfectant solution, discharge pipes 23 and 24 are provided. The device operates as follows. When the tank 18 with a capacity of 13 is connected in parallel, the fluid in the latter is processed by the ultraviolet and infrared spectrum, the convective heat and heat of infrared radiation from the reflector of the lamp 3. At the same time, hot water from the tube and through the pipeline b is passed through the open taps 19 and 22 to the tank 13 where it accumulates and is used to wash the udder before milking, as well as to drink to animals. At the same time, hot water through the valve 19 enters the tank 18 for the preparation of a disinfectant solution, where the necessary components are added and the solution is brought to the required concentration, after which the valve 19 is closed. The heated solution enhances the disinfecting effect. When the tank and container are connected in series, the valve 19 is closed and the taps 20-22 are open. As the solution from the tank 18 is consumed, water is added from the discharge port 23. At that, the valve 17 is closed, and the valve 16 is open and part of the liquid from the tank 13 is fed back to the inlet of the main line to the discharge pipe 24, thus ensuring that water is sterilized and tank 13 and the tank 18 with a disinfectant solution. The latter is provided both in parallel and in series with the tank and the reservoir. In the process of preparing a hot disinfectant fluid in tanks and containers, the animal is irradiated with ultraviolet rays, and the manipulator stem can be controlled taking into account the required or limiting dose, taking into account the characteristics of the animal and the process, i.e. the set of available disinfiers, age and weight of the animal , temperatures in tanks and containers, flow rates and liquids, etc. At the same time, the uv and the animal from the bottom are treated with ultraviolet rays by manipulating the rod according to a given Ogramme or -. r - r-manually according to the available data. Physical disinfection of the animal's udder radiation occurs and simultaneous treatment of the fluid in a quartz spiral tube, since the ultraviolet rays pass through the quartz glass. At the same time, thermal disinfection of water occurs through the use and removal of heat from the infrared component of the quartz lamp and the convective heat of the latter, since the infrared spectrum prevails in the quartz radiator and is a harmful concomitant phenomenon that adversely affects the life (life) of the lamp during normalized irradiation of animals. After preparing the solution for one of the possible options and pre-irradiating the udder from below, the pump is treated with a disinfectant heated solution from reservoir 18. The latter provides chemical disinfection of the udder. The irradiator housing is installed in a working position at an angle to the vertical plane of the longitudinal cross section of the udder in the direction of the body, not exceeding 60-70 ° so that no disinfecting solution drips onto the irradiator and the udder nipples are treated with ultraviolet radiation. The quartz spiral tube 4 is made wavy for mixing the layers of water treated by radiation, which increases the efficiency of its treatment. During the treatment of the udder with the sprinkler 14, the feed can be retracted outside the treated animal for irradiation and preparation of the udder of the next animal following in the stream, as well as for drying the udder with fan 7 before the animal. In this case, the lamp can be turned off as needed, since the air is heated by hot water circulating in a quartz spiral along the contour: pipe 24 - pipe 5 - pipe 4 - pipe 6 - capacity 13 - valve 16. Thus, the efficiency The proposed device also increases the efficiency of sanitizing the udder with thermal, chemical and physical disinfectants.

Claims (2)

1. DEVICE FOR SANITARY PROCESSING OF THE EXCHANGE, containing a tank for disinfectant liquid, a sprayer, a pipe and a collection tank, characterized in that, in order to improve processing efficiency, it is equipped with a quartz irradiator with a reflector body, a lamp and a spiral quartz tube, coaxially located relative to lamp and connected pipe with a reservoir for disinfectant liquid and with a collection tank that are connected to the sprayer, and the reservoir for disinfectant fluid copulating with the possibility of a series-parallel connection with the collecting container. 2. The device according to π. 1, characterized in that the pipeline has a distribution manifold with taps.